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 共查询到20条相似文献,搜索用时 31 毫秒
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Characterization of five novel human genes in the 11q13-q22 region   总被引:6,自引:0,他引:6  
The redundancy of sequences in dbEST has approached a level where contiguous cDNA sequences of genes can be assembled, without the need to physically handle the clones from which the ESTs are derived. This is termed EST based in silico gene cloning. With the availability of sequence chromatogram files for a subset of ESTs, the quality of EST sequences can be ascertained accurately and used in contig assembly. In this report, we performed a study using this approach and isolated five novel human genes, C11orf1-C11orf5, in the 11q13-q22 region. The full open reading frames of these genes were determined by comparison with their orthologs, of which four mouse orthologs were isolated (c11orf1, c11orf2, c11orf3 and c11orf5). These genes were then analyzed using several proteomics tools. Both C11orf1 and C11orf2 are nuclear proteins with no other distinguishing features. C11orf3 is a cytoplasmic protein containing an ATP/GTP binding site, a signal peptide located in the N-terminus and a similarity to the C. elegans protein "Probable ARP 2/3 complex 20kD subunit." C11orf4 is a peptide which displays four putative transmembrane domains and is predicted to have a cytoplasmic localization. It contains signal peptides at the N- and C-termini. C11orf5 is a putative nuclear protein displaying a central coiled coil domain. Here, we propose that this purely EST-based cloning approach can be used by modestly sized laboratories to rapidly and accurately characterize and map a significant number of human genes without the need of further sequencing.  相似文献   

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Gab1 and Gab2 are members of the Gab family which act as adapters for transmitting various signals in response to stimuli through cytokine and growth factor receptors, and T- and B-cell antigen receptors. We determined chromosome locations of the two genes in human, mouse and rat by fluorescence in situ hybridization. The Gab1 gene was localized to chromosome 4q31.1 in human, 8C3 in mouse and 19q11.1--> q11.2 in rat, and the Gab2 gene was located on chromosome 11q13.4-->q13.5 in human, 7E2 in mouse and 1q33.2-->q33.3 in rat. All human, mouse and rat Gab1 and Gab2 genes were localized to chromosome regions where conserved homology has been identified among the three species.  相似文献   

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Xu J  Ji C  Wang L  Cao Y  Dai J  Ye X  Zeng L  Dai J  Wu Q  Xie Y  Mao Y 《Molecular biology reports》2003,30(1):47-52
We report here cloning and characterization of a novel human gene, termed C5orf12, which is a putative membrane protein belonging to the TMS_TDE family. The cDNA encodes 42 animo acid with a putative molecular weight of about 47 KDa. Secondary structure prediction showed that C5orf12 contained 10 putative transmembrane helices, which has high identity with other family members. We performed RT-PCR to examine its expression pattern. The result showed that C5orf12 was highly expressed in placenta, skeletal muscle, spleen, thymus, testis and peripheral leukocyte while expressed weakly in heart and liver. C5orf12 has high identity with the rat TPO1, so we speculate that C5orf12 may also have a role in the brain development.  相似文献   

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Chen F  Zhang Q  McDonald T  Davidoff MJ  Bailey W  Bai C  Liu Q  Caskey CT 《Gene》1999,228(1-2):101-109
Identification of novel nuclear receptors based on the highly conserved DNA-binding domain (DBD) has previously depended mainly on low stringency hybridization of cDNA libraries and degenerate PCR. Establishment of the expressed sequence tag (EST) database in recent years has provided an alternative approach for the discovery of novel members of gene families. The rate-limiting step is the conversion of ESTs to full-length cDNA. This article describes the identification of two novel nuclear receptors (hERRbeta2 and hERRgamma2) related to human estrogen-receptor-related receptor 2 (hERR2) by mining the EST database and retrieving of full-length cDNA via inverse PCR on subdivided primary cDNA library pools. The deduced protein sequences of hERRbeta2 and hERRgamma2 contain 500 and 458 amino acid (aa) residues respectively. Sequence analysis revealed that hERRbeta2 and hERRgamma2 respectively share 95% and 77% overall aa sequence identity with hERR2. However, the extra C-terminal domain in hERRbeta2 and extra N-terminal domain in hERRgamma2 are not present in the closely related hERR2 or mouse ERR2 (mERR2). Extensive sequence verification revealed that hERR2 previously reported as a human gene is actually a rat gene, whereas hERRbeta2 is the true human ortholog of hERR2 and mERR2. Tissue distribution studies showed that hERRgamma2 was expressed in a broader panel of tissues at a higher level than hERRbeta2. hERRbeta2 was mapped to cytogenetic locus 14q24.3 approximately -14q31, a region containing multiple loci involved in genetic diseases, including Alzheimer and diabetes. hERRgamma2 was mapped to 1q32. Given the high sequence homology between hERRbeta2 and mERR2, the two receptors may have similar biological function in vivo.  相似文献   

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In this preliminary study, differentially expressed genes were investigated in cranial tissues from chickens with hereditary exencephaly using cDNA microarrays containing 1,152 genes and expressed sequence tags (ESTs). Genes showing twofold or greater differences at P < 0.05 between affected and normal cranial cells were considered to be candidates for hereditary exencephaly in chicken. Eighteen ESTs (11 known genes/homologues) were upregulated and 108 ESTs (51 known genes/homologues) were downregulated. The EST AL584231 (ROS006C9), orthologous to human MTHFD1, a known candidate gene for human neural tube defects (NTDs), was expressed at the same level both in normal and affected chicken cranial tissues. ESTs AL584253 (ROS006F7, thioredoxin reductase 1) and AL585511 (ROS024H9, thioredoxin), both involved in NTD pathogenic pathways in mice, were downregulated and had mean ratios of 0.41 and 0.04 for expression in affected vs. normal cells respectively. Expression differences of these two ESTs were confirmed by quantitative real-time polymerase chain reaction. These data indicate that ESTs AL584253 and AL585511 are candidates for hereditary exencephaly in chickens.  相似文献   

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Yoder JA  Litman GW 《Gene》2000,261(2):235-242
In addition to being an excellent model system for studying vertebrate development, the zebrafish has become a great tool for gene discovery by mutational analysis. The recent availability of the zebrafish EST database and radiation hybrid mapping panels has dramatically expanded the framework for genomic research in this species. Developing comparative maps of the zebrafish and human genomes is of particular importance for zebrafish mutagenesis studies in which human orthologs are sought for zebrafish genes. However, only partial cDNA sequences are determined routinely for mapped ESTs, leaving the identity of the EST in question. It previously had been reported that zebrafish linkage group 7 shares conserved synteny with human chromosome 11q13. In an effort to further define this relationship, five full-length zebrafish cDNAs, fth1, slc3a2, prkri, cd81, and pc, as well as one putative human gene, DBX were identified and their map positions ascertained. These six genes, along with men1, fgf3 and cycd1 define two regions of conserved synteny between linkage group 7 and 11q13.  相似文献   

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Yang JY  Spanaus KS  Widmer U 《Cytokine》2000,12(2):101-109
By homology search of expressed sequence tags (EST) in GenBank a novel member of the CC chemokine family was identified. The full-length sequence of this liver-specific CC chemokine (LCC-1) predicted a mature protein of 97 amino acids with 31-48% identity to other CC chemokines. There was a characteristic amino acid C-term extension when aligned with other chemokines. Northern blot analysis from a panel of human tissues revealed that LCC-1 mRNA expression is restricted to adult and fetal liver. Different polyadenylation results in two mRNA species of 1.5 kb and 0.5 kb in size. LCC-1 is constitutively expressed in human HepG2 hepatoma cells and is induced by hypoxic exposure. The promoter region of the LCC-1 gene contains potential HIF-1 binding sites. The EST for LCC-1 has been previously mapped to the CC chemokine cluster on human chromosome 17q11.2. The organization of the LCC-1 gene (scya16) into three exons interrupted by two introns is identical to that found for other members of the CC chemokine family.  相似文献   

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Xu Z  Wang MR  Xu X  Cai Y  Han YL  Wu KM  Wang J  Chen BS  Wang XQ  Wu M 《Genomics》2000,69(3):322-330
We have identified a novel human gene, designated C1orf10, using modified differential display PCR. The C1orf10 gene, which spans 5 kb in length, is composed of three exons. The deduced protein contains 495 amino acids with one transmembrane domain. The amino acid sequence of C1orf10 is characterized by the presence of a calcium-binding motif of about 90 amino acids at its N-terminal and a conserved consecutive repeat sequence of 60 amino acids that was identified previously only in bacterial ice nucleation proteins. In normal adult tissues, C1orf10 is highly expressed only in the esophagus and was undetectable in a total of 15 other tissues examined, suggesting its important role in esophageal cells. The expression of C1orf10 is either dramatically reduced or absent in esophageal cancer cell lines (3/3) as well as primary esophageal cancer tissues (35/37) compared with the corresponding normal esophageal mucosa. Using a radiation hybrid panel, C1orf10 was found to be located on chromosome 1q21. These findings suggest that expression of C1orf10 is unique to esophageal cells and that loss of its expression may play a role in the development of esophageal cancer.  相似文献   

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Full-length coding sequences of two novel human cadherin cDNAs were obtained by sequence analysis of several EST clones and 5′ and 3′ rapid amplification of cDNA ends (RACE) products. Exons for a third cDNA sequence were identified in a public-domain human genomic sequence, and the coding sequence was completed by 3′ RACE. One of the sequences (CDH7L1, HGMW-approved gene symbol CDH7) is so similar to chicken cadherin-7 gene that we consider it to be the human orthologue. In contrast, the published partial sequence of human cadherin-7 is identical to our second cadherin sequence (CDH7L2), for which we propose CDH19 as the new name. The third sequence (CDH7L3, HGMW-approved gene symbol CDH20) is almost identical to the mouse “cadherin-7” cDNA. According to phylogenetic analysis, this mouse cadherin-7 and its here presented human homologue are most likely the orthologues of Xenopus F-cadherin. These novel human genes, CDH7, CDH19, and CDH20, are localized on chromosome 18q22–q23, distal of both the gene CDH2 (18q11) encoding N-cadherin and the locus of the six desmosomal cadherin genes (18q12). Based on genetic linkage maps, this genomic region is close to the region to which Paget's disease was linked. Interestingly, the expression patterns of these three closely related cadherins are strikingly different.  相似文献   

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《Gene》1998,206(2):247-253
Regulators of G-protein signaling (RGS) constitute a family of GTPase-activating proteins with varying tissue-specific expression patterns and G-protein alpha subunit specificities. Here, we describe the molecular cloning of the human RGS-r/RGS16 cDNA, encoding a predicted polypeptide of 23 kDa that shows 86% identity to mouse RGS-r. Northern blot analysis shows that, like the mouse Rgs-r message, hRGS-r mRNA is abundantly expressed in retina, with lower levels of expression in most other tissues examined. Characterization of the genomic organization of the hRGS-r gene shows that it consists of five exons and four introns. We have also mapped the human RGS-r /RGS16 gene to chromosome 1q25–1q31 by fluorescence in situ hybridzation. Analysis of human ESTs reveals that at least five members of the RGS gene family map to chromosome 1q, suggesting that at least part of the RGS family arose through gene duplication. The chromosomal location, retinal abundance, and presumed function of the human RGS-r protein in desensitizing photoreceptor signaling make the RGS-r/RGS16 locus a candidate for mutations responsible for retinitis pigmentosa with para-arteriolar preservation of retinal pigment epithelium (RP-PPRE or RP12), an autosomal recessive disorder previously mapped to 1q31.  相似文献   

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